Title:
Medical image processing, reconstruction, and restoration : concepts and methods
Personal Author:
Series:
Signal processing and communications ; 24
Publication Information:
Boca Raton, FL : Taylor & Francis, 2005
Physical Description:
xxiii, 730 p. : ill. ; 24 cm.
ISBN:
9780824758493
Subject Term:
Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
|---|---|---|---|---|---|
Searching... | 30000010235511 | RC78.7.D53 J364 2005 | Open Access Book | Book | Searching... |
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Summary
Summary
It is essential that differently oriented specialists and students involved in image processing have a firm grasp of the necessary concepts and principles. A single-source reference that can provide this foundation, as well as a thorough explanation of the techniques involved, particularly those found in medical image processing, would be an invaluable resource to have.
Medical Image Processing, Reconstruction and Restoration: Concepts and Methods is that resource. It not only explains the general principles and methods of image processing, but also focuses on recent applications specific to medical imaging - providing a theoretical yet clear explanation of underlying generic concepts.
The content of this book is divided into three parts:
Part I, Images as Multidimensional Signals , provides the introduction to basic image processing theory, explaining it for both analogue and digital image representation. Part II, Imaging Systems as Data Sources , offers an alternative view on imaging modalities, with emphasis placed on analyzing internal signals and (pre)image data that are consequently processed. Part III, Image Processing and Analysis , focuses on such vital image processing topics as tomographic image reconstruction, image fusion, methods of image enhancement, and image restoration techniques. This section also explains concepts of fundamental-level image analysis - detailing local feature analysis, image segmentation, and generalized morphological transforms. It also addresses what is needed within the image processing environment by noting necessary hardware and software and processes for image archiving and communications.Table of Contents
| Part I Images as Multidimensional Signals | p. 1 |
| Chapter 1 Analogue (Continuous-Space) Image Representation | p. 3 |
| 1.1 Multidimensional Signals as Image Representation | p. 3 |
| 1.2 Two-Dimensional Fourier Transform | p. 9 |
| 1.3 Two-Dimensional Continuous-Space Systems | p. 19 |
| 1.4 Concept of Stochastic Images | p. 33 |
| Chapter 2 Digital Image Representation | p. 55 |
| 2.1 Digital Image Representation | p. 55 |
| 2.2 Discrete Two-Dimensional Operators | p. 67 |
| 2.3 Discrete Two-Dimensional Linear Transforms | p. 89 |
| 2.4 Discrete Stochastic Images | p. 125 |
| References for Part I | p. 133 |
| Part II Imaging Systems as Data Sources | p. 135 |
| Chapter 3 Planar X-Ray Imaging | p. 137 |
| 3.1 X-Ray Projection Radiography | p. 137 |
| 3.2 Subtractive Angiography | p. 152 |
| Chapter 4 X-Ray Computed Tomography | p. 155 |
| 4.1 Imaging Principle and Geometry | p. 155 |
| 4.2 Measuring Considerations | p. 164 |
| 4.3 Imaging Properties | p. 166 |
| 4.4 Postmeasurement Data Processing in Computed Tomography | p. 172 |
| Chapter 5 Magnetic Resonance Imaging | p. 177 |
| 5.1 Magnetic Resonance Phenomena | p. 178 |
| 5.2 Response Measurement and Interpretation | p. 188 |
| 5.3 Basic MRI Arrangement | p. 198 |
| 5.4 Localization and Reconstruction of Image Data | p. 201 |
| 5.5 Image Quality and Artifacts | p. 231 |
| 5.6 Postmeasurement Data Processing in MRI | p. 239 |
| Chapter 6 Nuclear Imaging | p. 245 |
| 6.1 Planar Gamma Imaging | p. 247 |
| 6.2 Single-Photon Emission Tomography | p. 258 |
| 6.3 Positron Emission Tomography | p. 265 |
| Chapter 7 Ultrasonography | p. 283 |
| 7.1 Two-Dimensional Echo Imaging | p. 285 |
| 7.2 Flow Imaging | p. 313 |
| 7.3 Three-Dimensional Ultrasonography | p. 325 |
| Chapter 8 Other Modalities | p. 335 |
| 8.1 Optical and Infrared Imaging | p. 335 |
| 8.2 Electron Microscopy | p. 341 |
| 8.3 Electrical Impedance Tomography | p. 350 |
| References for Part II | p. 355 |
| Part III Image Processing and Analysis | p. 361 |
| Chapter 9 Reconstructing Tomographic Images | p. 365 |
| 9.1 Reconstruction from Near-Ideal Projections | p. 366 |
| 9.2 Reconstruction from Nonideal Projections | p. 398 |
| 9.3 Other Approaches to Tomographic Reconstruction | p. 409 |
| Chapter 10 Image Fusion | p. 417 |
| 10.1 Ways to Consistency | p. 419 |
| 10.2 Disparity Analysis | p. 460 |
| 10.3 Image Registration | p. 470 |
| 10.4 Image Fusion | p. 481 |
| Chapter 11 Image Enhancement | p. 495 |
| 11.1 Contrast Enhancement | p. 496 |
| 11.2 Sharpening and Edge Enhancement | p. 510 |
| 11.3 Noise Suppression | p. 525 |
| 11.4 Geometrical Distortion Correction | p. 538 |
| Chapter 12 Image Restoration | p. 539 |
| 12.1 Correction of Intensity Distortions | p. 541 |
| 12.2 Geometrical Restitution | p. 545 |
| 12.3 Inverse Filtering | p. 546 |
| 12.4 Restoration Methods Based on Optimization | p. 559 |
| 12.5 Homomorphic Filtering and Deconvolution | p. 590 |
| Chapter 13 Image Analysis | p. 593 |
| 13.1 Local Feature Analysis | p. 594 |
| 13.2 Image Segmentation | p. 615 |
| 13.3 Generalized Morphological Transforms | p. 652 |
| Chapter 14 Medical Image Processing Environment | p. 675 |
| 14.1 Hardware and Software Features | p. 676 |
| 14.2 Principles of Image Compression for Archiving and Communication | p. 685 |
| 14.3 Present Trends in Medical Image Processing | p. 701 |
| References for Part III | p. 705 |
| Index | p. 711 |
